Laser ignition of a multi-injector LOX/methane combustor

Michael Börner, Chiara Manfletti, Justin Hardi, Dmitry Suslov, Gerhard Kroupa, Michael Oschwald

Research output: Contribution to journalArticlepeer-review

Abstract

This paper reports the results of a test campaign of a laser-ignited combustion chamber with 15 shear coaxial injectors for the propellant combination LOX/methane. 259 ignition tests were performed for sea-level conditions. The igniter based on a monolithic ceramic laser system was directly attached to the combustion chamber and delivered 20 pulses with individual pulse energies of 33.2±0.8mJ at 1064 nm wavelength and 2.3 ns FWHM pulse length. The applicability, reliability, and reusability of this ignition technology are demonstrated and the associated challenges during the start-up process induced by the oxygen two-phase flow are formulated. The ignition quality and pressure dynamics are evaluated using 14 dynamic pressure sensors distributed both azimuthally and axially along the combustion chamber wall. The influence of test sequencing on the ignition process is briefly discussed and the relevance of the injection timing of the propellants for the ignition process is described. The flame anchoring and stabilization process, as monitored using an optical probe system close to the injector faceplate connected to photomultiplier elements, is presented. For some of the ignition tests, non-uniform anchoring was detected with no influence onto the anchoring at steady-state conditions. The non-uniform anchoring can be explained by the inhomogeneous, transient injection of the two-phase flow of oxygen across the faceplate. This characteristic is verified by liquid nitrogen cold flow tests that were recorded by high-speed imaging. We conclude that by adapting the ignition sequence, laser ignition by optical breakdown of the propellants within the shear layer of a coaxial shear injector is a reliable ignition technology for LOX/methane combustors without significant over-pressure levels.
Original languageEnglish
Pages (from-to)273-286
Number of pages14
JournalCEAS Space Journal
Volume10
Issue number2
DOIs
Publication statusPublished - 1 Jun 2018

Keywords

  • Green propellants
  • Ignition
  • LOX/CH4
  • Laser ignition
  • Methane
  • Rocket engine

Fingerprint

Dive into the research topics of 'Laser ignition of a multi-injector LOX/methane combustor'. Together they form a unique fingerprint.

Cite this